After lots of design changes, we have been able to make a commercial prototype of a WiFi Electric Switch.
This WiFi Electrical Switch is used to control the home appliance, for example, light, fan, etc.

Below are some pictures of the updated version.

Prototype testing at my home.

This prototype has been running for a month. Installed it on 5th July 2018.

Pedograph is a medical device for measuring the variation of foot pressure at the various points under the sole.
“Diabetic patients usually suffer from lack of nerve sensation, especially in the feet. Therefore, their gait on standing and during walking may deviate from that of a normal person and points of high pressure develop under the feet. However, due to neuropathy they do not feel any pain which would have been felt had the nerve functions were alright. Later, ulcers form at these high pressure points, leading to gangrene and eventual amputation of the leg. A Pedograph revealing the variation of foot pressure at various points under the sole easily delineates such high pressure regions at an early stage so that special shoe insoles can be prepared to spread the pressure away from the hot spots. This way the patient is saved from eventual amputation, from being crippled for the entire life. Again, pressure points and pattern may differ while standing and during walking, usually it is the latter which put the soles on greater burden, and a dynamic pressure measurement during walking has more importance from a clinical point of view.” (https://bibeat.com/product/dynamic-pedograph/)

The main sensor unit (Fig) uses an optical method to create an
image of light intensities proportional to the pressure impressed at
individual points. This sensor unit provides a video image and rest of the work is done by software.
In this software, I have added a tool for measuring foot length from the composite image.

At our lab (Biomedical Physics and Technology Department at University of Dhaka), we have developed a smartphone powered electronic stethoscope system. It’s a small low-cost device, requires no battery and can be attached to a smartphone. Details are coming…

Q1.1
Write a function repeats(seq,n). This function receives a sequence and
will print all its subsequences of length n which are present at least twice
in the sequence. So seq(“acgtaaaaacgta”,4) would print
acgt
cgta
aaaa

Problem: 3. A simple measure of how complex a sequence is would be the count of the most frequent character n-gram, divided by the count of all n-grams. For example, if n is 3, then the sequence ATATATATAG contains 4x ATA, 3x TAT and 1x TAG. The proportion is thus 4/8=0.5. The higher this number, the more repetitive the sequence.

Write a function simple(s,n) where s is a sequence and n is the length of the n-gram to consider. The function will return the proportion described above.

Some pictures of the Smart WiFi Switch demo board that has been displayed at BMPT stall in the Digital World 2017 – an exposition organized to showcase the progress of Bangladesh’s IT industry. The event, held at the Bangabandhu International Conference Centre in Dhaka from 6th December to 9th December.

The first stage of the electronic stethoscope circuit was Pre-amplifier and at the second stage filter circuits. In both the stages, op-amp LM358 was used to perform the amplification and filter task. We were supposed to connect an earphone socket at the end of the filter output so that we can insert an earphone to hear the stethoscope sound. But LM358 op-amp can’t provide enough power to drive the earphone. The reason we find is the impedance mismatch between op-amp output impedance and earphone impedance.According to maximum power transfer theorem, maximum power is achieved when the source impedance (here output impedance of the op-amp) is equal to the load impedance (earphone impedance). Since the output impedance of an op-amp is low so it can’t provide enough power to the high impedance earphone (typically, mobile earphone 16Ω to 32Ωand speaker 300 to 600Ω ). To solve this problem, We chose to use an IC name LM386 which is a low voltage audio power amplifier. And it is the 3rd stage of our electronic stethoscope circuit. For this stage, the circuit we designed was based on an example given in the datasheet.